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Introduction
SAFE is a sophisticated, yet easy to use, special purpose analysis and design program developed specifically for
concrete Slab/Beam, Basemat/Foundation systems. SAFE couples powerful object-based modeling tools with an
intuitive graphical interface, allowing the user to quickly and efficiently model slabs of regular or arbitrary
geometry with openings, drop panels, ribs, edge beams, and slip joints supported by columns, walls or soil.
Design is seamlessly integrated with modeling and analysis, and provides comprehensive reporting of the
required reinforcing calculated by the program based on the users choice of design code. And with the optionalCSiDETAILER program, detail drawings may be produced almost effortlessly for the slabs and beams designed
using SAFE.
The analysis is based upon the Finite Element method in a theoretically consistent fashion that properly accounts
for the effects of twisting moments. Meshing is Automated based upon User Specified Parameters. Foundations
are modeled as thick plates on Elastic Foundations, where the Compression Only Soil Springs are automatically
discretized based upon a modulus of subgrade reaction that is specified for each Foundation Object.
The Software produces reinforcing layouts and evaluates the effects of punching shear around column supports.
Options are available for including cracked properties in the finite element model based upon the slab reinforcing
that is provided.
Also a comprehensive export option from ETABS is available that will automatically create complete SAFE models
of any ETABS floor or foundation for immediate design by SAFE.
Based on the finite element method, this program offers accuracy and flexibility that cannot be matched by
traditional hand calculations or equivalent frame computer programs. Traditional methods for the analysis of
simple slab systems are tedious and time consuming, and are often inapplicable for complex geometries or
loadings. General purpose finite element programs are capable of handling much more complex models, but are
often cumbersome and difficult to use and also produce results that are not directly usable by the structural
engineer.
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History and Advantages of SAFE
Slab systems are a very special class of structures. They are characterized by their simplicity in geometry and
loading. They are typically horizontal plates supported vertically by beams, columns or walls. The loading in
general is comprised of vertical point, line and surface loads. Basemats share the same characteristics as those
of elevated slabs, with the exception that basemats are supported on soil and loaded by columns and walls.
Recognition of the unique characteristics of slab systems led to the original development of the SAFE program
more that two decades ago. Early releases of SAFE provided input, output and numerical solution techniques that
took into consideration the modeling and analysis needs distinctive to concrete slabs, providing a tool thatoffered significant savings in time over general purpose finite element programs, and increased accuracy in
comparison to equivalent frame methods.
As computers and computer interfaces evolved, so did SAFE, adding computationally complex analytical options
such as cracked section analysis, and powerful CAD-like drawing tools in a graphical and object-based interface.
Although the current version looks radically different from its predecessors of 20 years ago, its mission remains
the same: to provide the profession with the most efficient and comprehensive software for the analysis and
design of slab systems. SAFE automates the analysis and design process for the structural engineer, resulting in
more sophisticated designs produced in fewer engineering labor hours.
Creation and modification of the slab model, execution of the analysis, checking and optimization of the design,and display of graphical results are all controlled through a single interface, and all aspects of the program are
linked via a common database.
SAFE also serves up the latest developments in numerical techniques, solution algorithms, and design codes,
including automatic finite element meshing of complex object configurations, very accurate plate bending
elements, stress-integration options that account for diagonal cracking behavior, and the most recent American
and International concrete design codes.
What SAFE Can Do for You!
SAFE offers the widest assortment of analysis
and design tools available for the structural
engineer working on concrete slabs. The
following list represents just a portion of the
types of systems and analyses SAFE can handle
easily:
Flat slabs, Flat slabs with perimeter beams,
Basemats, Two-way slabs, Waffle slabs, Ribbed
slabs, Rectangular or circular slabs, T-beam
effects, Spread footings, Combined footings,
Slabs subjected to any number of vertical load
cases and combinations, Pattern live loads,Foundation uplift, Deflections calculated using
cracked section analysis, Wall supports with out-
of-plane bending stiffness, Slab reinforcing
calculated based on user-defined design strips,
Flexural and shear design of beams, Punching
shear ratios, Design for twisting moments,
Automatic transfer of geometry, loading and slab
distortions from ETABS, Analysis and design of
regular and irregular slab/mat geometries, Finite
Element output simplified into Strip moments,
Rebar design (US and International codes)presented in map form
And much, much more!
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An Integrated Approach
SAFE is a completely integrated system. Embedded beneath the simple, intuitive user interface are very
powerful numerical methods and design procedures, all working from a single comprehensive database.
This integration means that only one model is created to analyze, design, and if CSiDETAILER is present,
detail the entire slab.
Everything is integrated into one versatile package with a single Windows-based graphical user interface.
No external modules need to be maintained, and data transfer between programs or modules is worry free.
The effects on one part of the slab from changes in another part are instantaneous and automatic.
The integrated modules include the following:Drafting module for model generation Finite element based analysis module Output display and table
generation module Concrete slab and beam design module.
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Modeling Features
SAFE is specifically tailored for concrete slab systems. It can handle arbitrary geometries, rectangular or
skewed, such as openings, varied column spacings and free edges, and various loading options. Because it
has been developed specifically for the structural engineer designing concrete slabs, input and output for the
program is much easier to use and interpret than a general purpose finite element program. The program
allows for modeling of :
Mat foundations Two way slabs Flat slabs Flat slabs with column capitals Waffle slabs Concrete
skip joist floor systems Single and Combination footings
The SAFE slab is idealized as an assemblage of area, line and point objects.
Area objects are used to model slabs, openings, soil supports, and surface loads. Line objects model
beams and wall supports and loads. Point objects are used for column supports and concentrated loads. With relatively simple modeling
techniques, very complex slab systems may be considered.
The geometry of the slab can be unsymmetrical, and the thickness of the slab may vary. Spacing of
supports and loads may be completely arbitrary and is not limited to the uniform spans typically associated
with equivalent frame techniques.
Construction or expansion joints may be modeled with or without shear transfer by assigning bending and
shear releases to the line object that represents the joint.
Column and wall supports can provide both vertical stiffness and rotational stiffness to give a more
accurate representation of the distribution of forces in the slab.
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Design Features
Flexural design of reinforced concrete slabs and basemats and the flexural and shear design of beams can be
performed based on a variety of international design codes ACI 318-02, ACI 318-95, BS 8110 85 R1989, CSA-A23.3-94, EUROCODE 2-1991, Indian IS 456-1978 R1996, NZS 3101-95.
Slab reinforcement location and layout is controlled using design strips. Design strip moments are obtained by
integrating the finite element stresses using an algorithm that always satisfies equilibrium and accounts for
the effects of twisting moments. Code based punching shear checks are made around column supports and
point loads.
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Detailing Features
Drawings showing the reinforcing detailing may be produced for both slabs and beams when CSiDETAILER is
used in conjunction with SAFE. The detailing may be based on the requirements of a selected design code or
on the preferences of the user. The user may prepare any number of drawings, and the drawings may
contain plan views of reinforcing layouts, sections, elevations, tables and schedules. Control over reinforcing
bar sizes and minimum and maximum spacing along with cut-off (curtailment) lengths is provided through a
detailing preferences command. Drawings may be printed directly from CSiDETAILER or exported to a DXFor DWG file for further refinement.
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Analysis
View deformed shape for different load cases and load combinations for elastic and long termdeformation analysis
View slab forces on deformed shapes for different load cases and combinations
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Display Strip Forces (moment and shear) for strips along X and Y
Display reaction forces for all load cases and combinations
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Analysis output tables for displacements, reactions, soil pressure, etc. Stiffness effect of walls Nonlinear analysis options for no-tension soil springs and deflection calculations based on crackedsections
Display of Soil Reaction Forces for footings
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Beam Moment, Shear and Torsion diagrams
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Design Features
ACI 318, CSA A23.3, Eurocode 2, BS 8110, Indian IS 456, New Zealand NZS 3101 design codes Automatic factored load combinations per code SAFE defines perpendicular strips, integrates strip moments and shears, and then designs the stripsper selected code Beam design for flexural and shear reinforcement Punching shear checks
Graphical display of required reinforcing with bar sizes Code based Punching Shear checks
Tabular display of reinforcing in Slabs
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Modeling Features
Assign soil supports using sub grade modulus: SAFE automatically adjusts nodal soil spring constants aspart of auto-meshing. No more time consuming error prone manual calculation of soil spring constantsbased on tributary areas that change with every modification. Variable soil support properties can beassigned.
Powerful templates to facilitate easy model generation Copy, cut, paste, delete, move and replicate option Onscreen assignment of properties, loading and supports
Automated Mesh generation for maximum mesh size
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Unlimited number of load cases.
Right click for current element or joint information Modeling of slabs with openings with and without beams
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Releases for moment and shear for modeling Expansion Joints and Cuts in Slabs Thin or thick plate bending finite elements Orthotropic properties may be assigned to elements Beam element allows for bending, torsion, shear deformations
Graphical User Interface
Completely integrated software for modeling, analysis, design and detailing of slabs and footings
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Display multiple view windows simultaneously
Apply Point, Line or Surface loading to the model
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Perspective and orthographic views
User control of colors
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Option to shrink view User option to view selected elements
User control on orientation and perspective of three dimensional views